HT Materials Science

HT Materials Science (HTMS) is the global leader in smart heat transfer fluids for commercial and industrial heating and cooling systems. We help any business with a high heating or cooling demand to make significant energy and carbon savings – from commercial offices and data centres through to manufacturers, pharmaceutical & healthcare facilities and more. Our patented Maxwell™ product is a drop-in nanofluid additive that’s proven to enhance the heat transfer of a base fluid by more than 15%. It delivers immediate results (with no costly downtime needed), making HVAC systems instantly more efficient and sustainable. Maxwell™ can reduce a company’s energy costs by 12-15% or more and can also increase a system’s capacity. This means businesses can get more out of their existing equipment for longer, as their heating or cooling demands increase. Our technology is already being successfully used by a host of major companies across the US, EMEA and Asia, bringing them enhanced efficiencies, cost savings and lower carbon footprints as a result. At HTMS we proudly work with some of the best science and engineering minds in the world, with offices in Dublin, Lecce (Italy) and New York. R&D is at the heart of everything we do, and we’re constantly developing future technologies to help businesses reduce energy consumption and their environmental impact

NanobOx (nanobox.ie)

NanobOx provide highly energy efficient water treatment solutions using nanobubbles to reduce input costs and increase yields in aquaculture, agriculture and related biosystems. Our novel, patented electric field nanobubble technology continuously generates billions of nanobubbles per ml of water while consuming only a few watts of power, We are developing solutions for ultra-low energy cost aeration of water, chemical-free cleaning and sanitisation of water, equipment and produce, and for enriching the nutrient value of crop irrigation water. NanobOx nanobubble technology offers: • High gas transfer efficiency, • Low energy requirement (less than 1W per litre minute water flow rate) • Operates at ambient pressure, • Unique ability for both surface and sub-surface deployment, • Operates effectively in highly solids-laden water, • Almost linear scaling of operating capacity, • Light weight and highly flexible in configuration, • No moving parts, resistant to fouling, • Low noise, • In-situ generation of nanobubbles enabling use under aseptic conditions.